US2687856A

US2687856A - Gyroscopic control of sustaining rotors

Info

Publication number: US2687856A
Application number: US684624A
Authority: US
Inventors: Glidden S Doman
Original assignee: Doman Helicopters Inc
Current assignee: Doman Helicopters Inc
Priority date: 1946-07-18
Filing date: 1946-07-18
Publication date: 1954-08-31
Anticipated expiration: 1971-08-31

Description

G. DOMAN GYROSCOPIC CONTROL OF SUSTAINING ROTORS Aug. 31, 1954 2,687,856

Filed July 18, 1946 l INVEVTOR.

GLIDDEN 5. 00mm.

Patented Aug. 31, 1954 GYROSCOPIC CONTROL OF SUSTAINING ROTORS Glidden S. Doman, Stamford, Conn., assignor to Doman Helicopters, Inc., a corporation of Delaware Application July 18, 1946, Serial No. 684,624

Claims.

The invention relates to a gyroscopic control of an azimuth plate which controls the pitch change of the blades of a sustaining rotor for helicopters and the like. One of the types of instability to which helicopters are subjected is the pendular swing of the fuselage which, when once started, tends to increase in amplitude, because the swing induces cyclic pitch change of the blades which in turn causes the rotor to tilt. Such pendular action can be checked by the pilot, but its occurrence prevents the pilot from flying or gliding with his hands off of the controls for any appreciable length of time, such as a minute or more. As a consequence the pilot cannot devote appreciable time to map reading or other duties, but must give substantially continuous attention to flying.

It is an object of the invention to construct a new and novel gyroscopic control for the azimuth plate of a rotary winged aircraft.

A further object is to provide a gyroscopic control for a rotor-sustained aircraft in which the gyroscopic member follows mean fuselage position, but is unaffected by short term swings of the fuselage such as its natural pendular motion.

Another object is to utilize the cooling fan as the gyroscopic element or member which provides a double use for the fan already provided upon the ship, and hence saves the weight necessary to be added when a separate gyroscopic member is provided.

Another object is to provide an hydraulic system for gyroscopic control of the azimuth plate combined with manual trim control of the azimuth plate which gyroscopic control is so constructed that the manual control does not affect the control provided by the gyroscopic means.

Other objects of the invention will be more apparent from the description which follows when taken in connection with the accompanying drawings illustrating a preferred embodiment thereof, in which:

Figure l is a diagrammatic view of the gyroscopic and trim control.

Figure 2 is a diagrammatic view of the control mechanism as applied to a helicopter or sustaining rotor aircraft.

Figure 3 is a view of friction dampers for the gyroscopic member.

The rotor of the aircraft is mounted upon a mast or pylon H) which is fixed to the fuselage F of the aircraft, and the rotor may be rotated through a drive shaft II passing through the mast and connected with the motor of the aircraft. The rotor head has a plurality of blades l2, one of which is shown, having a blade shaft It to which is connected an arm M, the end of which is connected through a link to an azimuth plate I6 carried by the mast ID. The azimuth plate is mounted for universal inclination with respect to the mast in known fashion.

A pair of operating means is provided to change 2 the inclination of the azimuth plate and thereby secure variation in cyclic pitch change of the blades l2. The operating means illustrated includes an hydraulic cylinder I9 which may be carried by the mast l0, and having a piston 20 therein connected through a piston rod I! with the azimuth plate I6. The second operating means includes a similar hydraulic cylinder 2i having a piston connected through a piston rod 22 with the azimuth plate at a point spaced with respect to the point of attachment of the piston rod 22 therewith. A pipe 23 connects with the cylinder [9 upon one side of the piston 23 and a pipe 2 1 is connected with the cylinder [9 upon the other side of the piston 20.

Similar pipes

25 and 26 are connected with the hydraulic cylinder 2 I. The

pipes

23 and 24 are connected with an hydraulic driving cylinder or means' 29 at opposite ends ofthe cylinder. A piston 30 is carried within the cylinder 29 and is connected by its piston rod 3| with a gyroscopic means to be described. The

pipes

25 and 26 are likewise connected with a hydraulic cylinder 32 carried by the aircraft and having a piston which is connected by its piston rod to the gyroscopic means at a pointat right angles to or 90 from the connection of the piston rod 3| therewith. The

hydraulic cylinders

20, 29 and 21, 32, with their associated parts and connections constitute a pair of operating mechanisms between the gyroscope and the azimuth plate for controlling the position of the latter by the former. The hydraulic cylinders 29 and 32 constitute hydraulic operated means since they are operated by the gyroscope.

A gyroscopic means provides a relatively fixed reference plane for maintaining the azimuth plate It in a plane parallel therewith. The gyroscopic member of the gyroscopic means preferably is a cooling fan 35 for the motor, mounted upon the fuselage of the aircraft and driven by the motor for the aircraft through a drive shaft 36 mounted for rotation such as in bearings 34. The use of the cooling fan eliminates the necessity of providing a separate gyroscopic member which would increase the weight of the aircraft. Also, the fan is driven at high speed so that even though it is of relatively light weight it develops sufficient inertia or gyroscopic effect to resist adequately any change in its plane of rotation. Again the fan and its drive shaft may be made lighter, thereby further reducing weight, since gyroscopic fan stresses are virtually eliminated. The fan tends to and will remain fixed or substantially fixed in any given plane of rotation. The drive shaft 36 is connected with the motor to rotate the fan and the fan is mounted upon the drive shaft by a universal joint 31, preferably of the constant velocity type, so that it may universally incline with respect to the shaft 36. v

Suitable means are provided to make the fan follow average or long term fuselage position,

which means rnay Joe any suitahl e -form of friction of viscous damping device, however,

dash pots

38 and 39 are shown located at right angles with respect to each other. The dash pots have a piston 40 which is connectedrwith,the ianJoy means of a piston rod, the end of which is attached to the fan by a. pivot 4| and the cylinder is connected or adapted tohaconnectedwith the drive shaft 36 through a pivot 42. The dash pot 39 is similarly constructed. A needle valve 43 may be provided in ordertoadjustthe amount of resistance or damping offered by the dash pot. The fan will adjust itself toward perpendicularity with shaft 36 in the event of a new longtermfuselage position by action of the small forces from-the shaft-transmitted to the fan through the dampingmeans. The fan may be made to come into line with its shaft for such long term-motion or mean fuselage position as rapidly or as slowly as desired by properly regulating =the-needle-valves or other means to give the-proper degree of damping. The damping is vnormal ly relatively soft so that the fan do'esnotrespond to or change its plane of rotation appreciably with short term pendular variations in position .of the fuselage. Should the fuselage develop-a pendular swing, thechange in inclination of the drive shaft for he fan with respect to the latter would, through the soft damping means'tend to and may change the inclination of the fan slightly. However, the pendular swing inthe opposite direction would exert a similar and substantially equal force or tendency in the opposite direction and restore the fan to its original or average position. long term change in attitudeof the fuselage would cause a gradual change in the plane of rotation of the fan. m M h The aircraft may-be "trir r 1m ed by means for changing the inclination of the azir n ith plate relatively to the inclination or attitude of the fan or gyroscope. A trim stick provided in the fuselage to he nianually operated by the pilot. The trim stick is connected throughl a piston rod "W i e vision 4. e r ie ine.. el eul. .d he cylinder 99. {The ends of the cylinder are conneeted b pi e 1 ha re pee i e t he pipes 23 and 24 whichco'nnect with opposite ciids h h dra lin e J a o h azhrie h P a operating means. I? 5215 connected by a piston rod 53 toa piston 54 within h l heleffii w th h 'hihe's 25 an respectively for the hydraulie' cylinder 2|. It will be noted that the hyd 11;; is duplex a of 'ee'i hl h .Pl te e'r le t h mean It will he heted the? th .ee e lit P a '15 may b moved to any position withoutmovemeht 19f the y e e ex here. he'eeeee th elehh e i what may be termed a pa lle l connection in e e h me Opera 11h en-dear e -i h Me ns e rr9risied" r hr h eeeh vv-ioleni ,ly short term pendular-potion, but the fan 35 remains in its plane of rotation so that the piston 30 and the like piston for the driving cylinder 32 are moved relative to their cylinders oar-riedthy -theaircraft, and the azimuth plate I6 is caused to remain in a plane parallel to or in the same relative position with respect to the fan 85, irrespective of any inclination of the fuselage andrnast Ii]. Thus the azimuth plate remains nominally undisturbed in space even though the f-LlSBlage may be tilting violently.

If a long term change in the position of the fuselage occurs, the fan 35 slowly changes its plane of rotation, from sforces originating in the .damping-meansibecause of relative inclination of the drive shaft and the axis of rotation of the fan. These forces slowly bring the fan into alignment with theaxis of. rotation of thedrive shaft. Achange-in-the plane-of rotation-of the .fan moves the piston 30 or the like piston for cylinder 32 or both, .and the same or an equivalent motion .is transmitted, through 'the hydraulic system, to the cylinder 48 or 2! respectively or both cylinders. The new plane of rotation of the fairer gyroscopicmembert'changes the inclination of the azimuth plate I6 so that it is changed to a new position in space-corresponding to-the changedpl-ane of rotation of the fan. 'It will be observed, therefore, that a gyroscopic control is provided which maintains a fixed azimuth control plane throughout short term pendular motion of the fuselage but adjusts the. controlplaneto long term-change of fuselage position.

lithe pilot should desire to trim orchange flight conditions for-the aircraft, the trim stick or 52 is moved to move -i-ts respective piston, which motion is transmitted through the hydraulic system to its respective cylinder L9 or 2 I, in a corresponding direction, to change the inclination of the azimuth plate It. The-trim controlor stick is then locked or held in adjusted position so that the trim adjustment made is in a sense a fixed adjustment since-it is altered usually but once for a particular flight condition. Shifting of weightIin the aircraft or other reasons may require another adjustment, however, it usually remains fixed for any flight conditipn such as continued cruising. The gyroscopic action of the fan in conjunction with the resistance offered by thedash pots 38 or damping m ans is sufficile nt so that operation of either trim stick does not appreciably change the plane of rotation of the fan 35 through the cylinders 29 or 32. The motion of either trim stick therefore is transmitted to the h ydraulic cylinders of theoperating means and changes the inglination 9 t mut l t 9. Y-

A ihtervele her be de able o yhehrenize the hydraulic system. With the rotor running at low power on the ground the blade hearing stiffness transmits forces through the azimuth plate, the operating cylinders L9 andZl, and the hydraulic system tending to hring the azimuth plate to a positionparallel with the rotor, which i Qeeur if l hile f and? ar e i ed hydraulic pressure. Meanwhile the fan 35 is also being urged toward alignment with shaft 36. For S h on zin th va ve 5. a h op to connect the duplex fluid systems for flow of fluid from one to the other, and the pilot pushes the trim sticks to center stroke position. This equalizes the fluid in each of the duplex control systems, after which the valves 58 are closed. A e l hdere o eeehepe e hs mea are y chronized and the aircraft is ready for flight. Synchronizing may also be made during flight if desired. In the event the yr s pe or fan should cease to function due to failure of the motor or any other reason, the fan may be disconnected from the system by closing the fluid valves 59.

There is shown in Figure 3, a damper of the friction type which may be substituted for the dash pot dampers shown in Figure 1. This friction damper includes a central friction plate 62 which is connected to one of the pivots and a pair of outer friction plates 63 and 64 connected to the other pivot. As illustrated, the central plate 62 is connected with pivot 4| and plate 63 is connected with pivot 42. Plate 64 is pivoted to a bracket 65 carried by the plate 63- and a spring 61 presses the two plates into contact with the central plate 62 to create friction between the plates. An adjusting screw 66 may be used to adjust the compression of the spring and thereby adjust the friction between the plates.

The control described is an addition to the usual pilot control of the azimuth plate (not shown) which pilot control is superimposed upon the gyroscopic control and the fixed trim control described. The pilot control for use in flight ordinarily includes, variation of the inclination of the azimuth plate, for changing cyclic blade angle and vertical shifting of the azimuth plate for collective change of the blade angle.

This invention is presented to fill a need for improvements in a gyroscopic control of a sustaining rotor. It is understood that various modifications in structure, as well as changes in mode of operation, assembly, and manner of use, may and often do occur to those skilled in the art, especially after benefiting from the teachings of an invention. Hence, it will be understood that this disclosure is illustrative of preferred means of embodying the invention in useful form by explaining the construction, operation and advantages thereof.

What is claimed is:

1. A gyroscope control for helicopters and the like having blades mounted for control of the pitch angle thereof, an azimuth plate mounted with the blades and at least one rotatable shaft comprising a gyroscope including a gyroscopic member, means mounting the gyroscopic member for rotation and universal inclination thereof, and damping means connected with the gyroscopic member rendering it fully responsive to long term changes in attitude of the fuselage but insensitive to short term changes in attitude, including means to connect the same to a rotatable shaft; a pair of hydraulic operating means operable in two directions including means adapted to connect the same to blades to vary the pitch thereof, hydraulic driving means for each operating means connected with and each actuated by the gyroscopic member for a different direction of inclination thereof to automatically vary the position of the operating means upon relative inclination of the gyroscopic member, a pair of hydraulic connections between each hydraulic driving means and its respective operating means, valve means in one of the hydraulic connections for each pair of hydraulic connections, manually controlled hydraulic trim means connected with the operating means to manually vary the position of the operating means, each hydraulic means being duplex for operation in two directions, the damping means and the gyroscopic effect of the gyroscopic member exerting sufficient resistance to render the gyroscopic member insensitive to the manually controlled hydraulic trim means, and valve means connecting one side of each hydraulic operating means with the other side to synchronize each hydraulic operating means as well as the hydraulic trim means and hydraulic driving means connected therewith.

2. A gyroscopic control for helicopters and the like having a rotatable shaft and a rotor head and blades mounted for control of the pitch angle thereof by an azimuth plate mounted for universal inclination thereof and adapted to be connected with the blades comprising a gyroscope including a gyroscopic member, means mounting the gyroscopic member for rotation upon a vertical axis including a universal joint for universal inclination of the gyroscopic member, means carried by the universal joint adapted to connect the same with a rotatable shaft, and at least one pair of damping means connected with the gyroscopic member at points angularly spaced with respect to each other around the axis of the gyroscopic member for control in all planes of movement thereof including means carried by the damping means adapted to connect the same with a rotatable shaft, said damping means being fully responsive to along term change of attitude of the helicopter but insensitive to short term change of attitude; and a pair ofoperating mechanisms each connected with the gyroscopic member at points spaced 90 with respect to the other around the axis of the gyroscopic member and actuated by the latter upon relative inclination between the helicopter and the gyroscopic member, the operating mechanisms being adapted to be connected with the blades to vary the pitch of the latter with the inclination of the gyroscopic member.

3. A gyroscopic control for helicopters as in claim 2 including manually controlled means connected in parallel with each of the operating mechanisms to manually vary the position thereof independently of the gyroscopic means, and, the damping means and gyroscopic effect of the gyroscopic member exerting sufficient resistance upon the gyroscopic member to render the latter insensitive to the manually controlled means.

4. A'gyroscopic control for helicopters as in claim 3 in which the operating mechanisms each include an hydraulic operating means including means adapted to connect the same with the blades to vary the pitch thereof at two spaced points thereof, hydraulic operated means connected with the gyroscopic member, and fluid connections between the operating means and the operated means, and the manually controlled means are hydraulicmeans connected to the fluid connections.

5. A gyroscopic control for helicopters as in claim 4 in which each hydraulic means is duplex for operation in both directions, and .valve means connecting one side or" each hydraulic operating means with the other side to synchronize each hydraulic operating means as well as the hydraulic trim means and hydraulic driving means connected therewith.

6. A gyroscopic control for helicopters as in.

claim 5 in which the gyroscopic member carries fan blades for blowing air for cooling purposes.

7. A gyroscopic control for helicopters and the: like having a rotatable shaft and a rotor head: and blades mounted for control of the pitch angle thereof by an azimuth plate mounted for *7 universa 3. 91.113???1 9341 91311 gfillik lq ;599 h 'ee heete w t the h ee eeihpi h h :eeeee -.ihe h ihe e evh eee e mem e .iheah mo n in the ev e ee e mem ie e et eh upona vertical axis including a universal joint H f m eel h l hetie e the ev eee h m m he -e meehs har ied b t uni ers J i adapted to connect the same witha rotatable i ei ri wi h e r t tabl s aft ei dampi 3 4 in ll PQ 1. 3 iehhh h .of attitude of the helicopter but inSBllS tive to rm-chan e h at itude; nd a pa of .eneretihe mecha sms e h e e e w th gyrgscopic member at points spaced 90. apart e e h h ax s th vh s e i m e hd aeh eted hv the latt uhen r ati e h hh t h between the helicopter and .the ,gyroscopic memhehthe pe a .me ha eh be n dapt d-ts be .CQnBected withtheblades to vary the pitch ,of thelatter with the relative inclination .of the gyroscopic member, manually controlled means leehneeted i a a wit ea of thehpe etih mechanisms to manually. vary the position thereef indepen ntl f t e ey se mee ean of thegyroscopicinernberexerting sufficient re.- sistance upon the gyroscopicmember to render th -latt -in' ehe h et t man l y e h l ed meaneland fan blades carried by the gyroscopic member for cooling purposes.

8. A gyroscqpic control for helicopters and the like having a rotor head and blades mounted for control of the pitch angle thereof by an azimuth plate for universal inclination thereof and adapted to be connected ,with the blades comprising a gyroscope including a .gyroscopic member, means mounting the gyroscopic member for rotation upon a vertical axis including a shaft, a universal joint connecting the shaft with the gyrcee ic me b r er n s he in t eh h the latter with respect to the shaft, and at least onepair of ,damping means connected between the gyroscopic member at points angularlyspaced 9,0.with respect-to eachother around the axis of thegyroscopic member and the shaft for. con.- trol in all planes of movement thereof, said damping means being fullyresponsive to long term change of attitude of the helicopter but insensitivet'o short term, change of attitude; and a pair of operating mechanismseach connected with the gyroscopicmember'at points spaced 90 apart ere hd W a i o e eyreeeepie member and actuated by the latter upon relative inclination between the helicopter and the gyroscopic memher, the operating mechanisms being adapted to be connected with the blades to vary the pitch of the latter with the inclination of the gyroscopic member.

9. A gyroscopic control for helicopters and the like having a rotatable vertical shaft and a rotor head and blades mounted for control of the pitch angle thereof by an azimuth plate mounted for universal inclination thereof and adapted to be connected with the blades comprising a gyroscope including a gyroscopic member, means mounting the gyroscopic member for rotation upon a vertical axis including a universal joint for universal inclination of the gyroscopic memhe a d me n ar ied b the universal ieint the dam n mean e he' s epi e 't rehea d: feeh e the same th. eretateh sha t an at east on .rhi .of dampin ,me n en ee s ..w th th g r scop c member 'p n .aneu l sp d 9 w t res ct t e hth around. the axis of the gyroscopic member for control in all planes ,of ,movement thereof including means carried by the damping means .adaptedto.connect-the same-with a rotatable ehe h e eehinih m ne eihe f y r spensiv toxlong termthhn ge ofattitudeof the helicopter ,but insensitive to short term change of attitude; and a pair. of ,operating mechanisms eachqconnected with the gyr0. QPicremember at points s c d- 0 apart ar und theax of theieyr scopicmember and actuated ,by the latter upon rel inclina ion etwe th -helicopte and the ,gyroscopic member, "the operating ;me cha- Jnisms each including ,an hydraulic Operating means-having means adapted to connectthe same with the blades tovary the -inclin ation'0f' the latter with the inclination .of the gyroscopic me h d a ic. epe h e m a eennee e with the gyroscopic member, and fluid connections between the operating means and the operated means; manually controlled hydraulic mea .een d t the fluid ie a l h ea h of t e e era hei eeh nisms to manually vary the position thereof *independentlyof the gyroscopicmeans and the damping-means, and thegyrojscopic effect of the gyroscopic member exerting sufficient --resistance upon the gyroscopic member to re nder;.-the, latter insensitive to the manu ll controlled means, and fan blades carried by-the gyroseopic ,membar for coolingpurposes.

10. In an aircraft, a body, a rotary member mounted onsaid body tor -rotation about a generally upright axis, blade means, means mounting said blade means on said rotary member for change of the efiective incidence of ,saidblade means, inertia means rotatable about an axis generally. parallel to said upright axis, means m t ai ine ti mea s 9 idb v o universal inclination relative thereto,- means necting said inertia means v vith said blade means to control the effective incidence of Said blade means, a pilot operable control means interconnecting said blade means and said inertia means and adjustable to vary the relative inclination of the planes of rotation of said rotor and said inertia means, and friction type damping means interconnecting said inertia means and said body and arranged to damp inclination movements of said inertia means relative tosaid body.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 2,021,470 Upson Nov. 19, 1935 2,165,451 Carlson July 11, 1939 2,238,300 Zand Apr. 15, 1941 2,242,806 Wunsch May 20, 1941 2,299,117 Von Menteuffel Oct. 20, 1942 2,368,698 Young Feb. 6, 1945 2,384,516 Young Sept. 11, 1945 2,396,038 Bossi Mar. 5, 1946 2,427,939 Woods Sept. 23, 1947 2,443,192 Moeller i June 15, 1948 FO E G PAT S Number Country Date 26 Au t ia -..-.-.---T.-- a 91, 4. Gre t Brita n May 4. 2